Plastic lid for an open topped container

ABSTRACT

A plastic lid is provided for an open topped generally circular container having an outwardly directed lip encircling the open top of the container. The lid comprises a rim of generally annular shape to cooperate with the outwardly directed lip of the container and a squat generally cylindrical section extending from an inner periphery of the rim to a closure wall at its operatively inner end to form a plug type of closure adapted to form a seal with an inner periphery of the container. The lid has at least one locking member that is an endless locking ring connected to the rim by way of one or more integral frangible connecting elements. The locking member is adapted to operatively cooperate with the lip of the container such that fracturing of one or more of said integral frangible connecting elements occur attempted removal of the lid from the container.

FIELD OF THE INVENTION

This invention relates to a plastic lid suitable for use as a closure for an open topped container (that is commonly referred to as a tub) of the general type used for packaging consumable foodstuffs such as dairy products.

More particularly the invention relates to a lid of the so-called tamper evident variety in which initial removal of the lid is generally not possible without causing fracturing of a part of the lid assembly or container that then evidences that the lid has been subjected to tampering.

The invention also relates to the production of such a plastic lid.

BACKGROUND TO THE INVENTION

A substantial quantity of consumable foodstuffs such as yoghurt and other dairy products is packaged in plastic containers that need to be closed in a manner that precludes, as much as possible, tampering with the contents of the container without at least leaving evidence of such tampering. One expedient that is commonly used is to secure a foil lid over the open top of the container in order to hermetically seal the contents therein. In this instance, the foil has to be torn off the container, at least partially, in order to gain access to the contents and tampering is quite obvious.

In the case of small quantities of product that are aimed at being consumed at one sitting, this expedient operates effectively. However, in instances in which the quantity of product packaged is larger so as to provide a supply of the product that is to be consumed progressively in stages over a period of time, an additional plastic lid is regularly provided to enable the container to be re-closed satisfactorily for storage purposes. Such plastic lids generally clip relatively loosely into position on the open end of the container.

Quite clearly, the combination of the foil lid and the plastic lid increases the cost of packaging appreciably. Also, as far as applicants are aware, none of this type of plastic lid that is presently available, forms an effective seal with the open top of the container. Accordingly, the shelf life of the product contained in such a container subsequent to initial opening may be adversely affected.

An alternative form of tamper evident lid has been made available on specially configured injection moulded containers in which a tamper inhibiting skirt is moulded integral with the open end of the container. This skirt is configured such that it obscures the edge of a plastic lid that is essentially inaccessible until a part of the skirt is broken away to expose it. The broken skirt then evidences that tampering has taken place. This type of lid is also not entirely satisfactory in that the lid can, with some degree of care, be removed without breaking the skirt.

OBJECT OF THE INVENTION

It is an object of this invention to provide a tamper evident plastic lid for a container of the type indicated above that can be used in the absence of a foil lid and yet provide an effective hermetic seal.

It is another object of the invention to provide for the production of such a plastic lid.

SUMMARY OF THE INVENTION

In accordance with one aspect of the invention there is provided a plastic lid for an open topped generally circular container of the type having an outwardly directed lip encircling the operatively upper open end of the container, the plastic lid comprising a rim of generally annular shape and configured to cooperate with the outwardly directed lip of the container, in use; a squat generally cylindrical section formed integral at its operatively outer end with the inner periphery of the rim and having formed integral therewith at its operatively inner end a closure wall such that the cylindrical section and closure wall together form a plug type of closure adapted to form a seal with the inner periphery of a cooperant container; the lid being characterized in that at least one locking member is connected to the rim by way of one or more integral frangible connecting elements wherein the locking member is adapted to operatively cooperate with the lip of a cooperant container such that fracturing of one or more of said integral frangible connecting elements occurs during removal or attempted removal of the lid from the container.

Further features of this aspect of the invention provide for the locking member to be an endless locking ring having an endless latch formation for engaging the underside of the outwardly directed lip of a cooperant container; for the frangible connecting elements to be a multitude of frangible webs or bridges formed integral with the rim and locking ring and spaced apart equally and angularly relative to each other; for a single retaining connecting element of more robust proportions to attach the locking ring to the rim of the lid to hold the ring captive unless the ring and lid are more firmly torn away from each other; for the frangible connecting elements to be located radially inwards of the outer periphery of the rim; for the outer periphery of the rim to have a downturned return flange; for the rim to have an integral outwardly extending finger grip; for the closure wall to have a downwardly directed ridge spaced slightly inwardly of its outer periphery so as to serve as a guide for the closure as it is introduced into an end of a container; and for the locking ring to carry on its outer surface, a retainer ridge or groove whereby the lid is retained on its associated mould component to inhibit fracturing of the frangible webs or ridges during de-moulding and that may be occasioned by a random order of disengagement of moulded parts from the moulded lid.

Preferably, the lid defined above is to be used in conjunction with a thermoformed container that inherently has an inwardly directed endless bead formed immediately adjacent the open end and that is of smoothly rounded shape in cross-section.

It has been found that, with suitable materials being chosen, the lid provided by this invention forms a highly effective hermetic seal with the inner surface of the container at the bead. It is preferred that the closure wall, in the closed position, be spaced inwardly of at least the high point of the endless bead adjacent the open end of the container, and preferably inwardly of the entire bead such that the closure wall can urge the inner end of the squat cylindrical section radially outwards to enhance sealing of the bead against the outer surface of the cylindrical section and ensure that the lid remains in its closed position unless positively removed. A seal having the basic qualities of an O-ring type of seal is thus created.

In accordance with a second aspect of the invention there is provided an injection moulding process for producing a plastic lid as defined above wherein a mould cavity is formed by a primary outer mould member contoured to mould the outer top surface of the lid and movable axially between its operative and inoperative positions; a sliding core mould member contoured to mould the inside surface of the closure wall of the lid and movable in the same axial direction; a sliding sleeve slidable axially on the core mould member and having an edge configured to mould the outside surface of the squat cylindrical section, the inside surface of the locking ring, and undersurface of the rim between the locking ring and squat cylindrical section; a coaxial stripper ring also movable axially and configured to mould the outer surface of the part of the locking ring adjoining the rim and, together with the end region of the sliding sleeve, to form a multitude of frangible connecting webs or bridges between the locking ring and rim; and a concentric collar axially slidable on the sliding sleeve for forming the balance of the outer surface of the locking ring of the lid; the process being characterized in that movement of the various parts of the mould is arranged such that the end of the sliding sleeve is withdrawn from a moulded component prior to it being released by the stripper ring.

Further features of this aspect of the invention provide for the stripper ring to have a groove or ridge for moulding a retainer ridge or groove in the outer surface of the locking ring for ensuring removal of the sliding sleeve from a moulded lid prior to disengagement of the lid from the stripper ring; and for the cooperating surfaces of the stripper ring and collar to be bevelled to enable a relatively small operative mould surface to be provided on the stripper ring.

In accordance with a third aspect of the invention there is provided a plastics injection mould assembly configured for use in a process as defined above.

In order that the above and other features of the invention may be more fully understood one embodiment of each of the aspects of the invention will now be described with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:—

FIG. 1 illustrates, in exploded isometric view, one embodiment of container and lid of the type with which the invention is concerned;

FIG. 2 is a sectional elevation thereof showing the lid in position on the container;

FIG. 3 is a very much enlarged sectional elevation of each of the two diametrically opposite sides of the container illustrated in FIG. 2 and showing the cooperation between the container and lid;

FIG. 4 illustrates a portion of the periphery of the container and lid taken in the direction of line IV to IV in FIG. 3 illustrating the spacing of the frangible connecting webs or bridges;

FIG. 5 is a schematic sectional elevation of an injection mould assembly forming the third aspect of the invention that is utilized in the process of the second aspect of the invention;

FIG. 6 is a schematic sectional elevation of a part of the injection mould assembly corresponding to the right-hand edge of a lid with the mould assembly in the closed position;

FIG. 7 is the same as FIG. 6 but showing the relative positions of the mould parts after an initial stage of the de-moulding process;

FIG. 8 is the same as FIG. 7 but showing the relative positions of the mould parts in a subsequent stage of the de-moulding process; and,

FIG. 9 is the same as FIG. 8 but showing the relative positions of the mould parts in a final stage of the de-moulding process.

DETAILED DESCRIPTION WITH REFERENCE TO THE DRAWINGS

In the embodiment of the invention illustrated in the drawings, a plastic lid (1) is provided for an open topped, but generally circular, somewhat tapering, cylindrical container (2), the container having an outwardly and downwardly directed return lip (3) encircling the operatively upper open end (4) thereof.

In this particular embodiment of the invention, the lid is designed to be used in conjunction with a thermoformed container that inherently has an inwardly directed endless bead (5) formed on the inside surface immediately adjacent the open end so as to encircle it. This endless bead is of the usual smoothly rounded shape in cross-section, as shown clearly in FIG. 3.

Of course, an injection moulded container could also be used and could be provided with just such an endless bead, if required.

The plastic lid comprises a rim (6) of generally annular shape and configured to cooperate with the outwardly directed lip (3) of the container, in use. The outer periphery of the rim has a downturned return flange (7) that, in use, prevents edges of adjacent containers from becoming damaged by mutual interference or impact. The rim also has an integral, outwardly extending finger grip (8) at one position on its periphery.

Formed integral with the inner periphery of the rim is the operatively outer end of a squat, generally cylindrical section (9) that, in turn, has formed integral therewith at its operatively inner end a closure wall (10). This arrangement is such that the cylindrical section and closure wall together form a plug type of closure that, in use, forms an effective seal with the inner periphery, and in particular, the bead (5), of a cooperant container of the type described above. The closure wall has a downwardly directed ridge (11) spaced slightly inwardly of its outer periphery so as to serve as a guide for the closure into an open end of a container.

Also formed integral with the rim is a locking member in the form of an endless locking ring (12) having an endless latch formation (13) for engaging the underside of the outwardly and downwardly directed lip of the container, in use. The locking ring is connected to the rim by way of a multitude of frangible connecting webs or bridges (14) formed integral with the rim and locking ring and with spaces (15) between them so that they are equally spaced apart angularly relative to each other. Typically, the webs or bridges may only be about 0.5 to 1.0 millimetres wide with a spacing of say 4 or 5 millimetres between them, simply by way of example. The exact arrangement will vary widely according to the configuration of the lid and the material from which it is moulded. The frangible connecting webs or bridges (14) are located radially inwards of the outer periphery of the rim and are illustrated most clearly in FIG. 4.

The locking member is thus adapted to cooperate with the lip of a cooperant container, in use, such that fracturing of one or more, and generally a large number, of said integral frangible connecting elements occurs during removal or attempted removal of the lid from the container.

If required, a single retaining connecting element (not shown) of more robust proportions may serve to attach the locking ring to the rim of the lid to hold the ring captive unless the ring and lid are more firmly torn away from each other.

For purposes that will become more apparent in the following description of the injection moulding process, the locking ring has on its outer surface, a retainer ridge (16) whereby the lid is retained on its associated die component to inhibit fracturing of the frangible webs or ridges during de-moulding.

It has been found that, with suitable materials being chosen, a lid as described above forms a highly effective hermetic seal with the inner surface of the container, particularly at the bead. This is ensured by the fact that the closure wall, in the closed position, is spaced inwardly of at the endless bead (5) adjacent the open end of the container such that the closure wall can urge the inner end of the squat cylindrical section radially outwards to enhance sealing of the bead against the outer surface of the cylindrical section. A seal having the basic qualities of an O-ring type of seal is thus created.

The closure wall and cylindrical section are further configured such that pressure exerted on the central region of the closure wall with the lid in registration with the open end of a container, has the effect of urging the inner end of the cylindrical section radially inwards so that it can snap past the bead thereby effectively locking the lid in its closed position. What this means is that, not only is an effective hermetic seal created in the first place at the packaging depot, thereby rendering any foil closure unnecessary, but also an effective hermetic seal is created each time that the lid is re-installed on the container subsequently and during progressive intermittent consumption of the contents.

The entire lid together with the locking ring is also such that, using appropriate machinery, the lid can be installed onto the periphery of a container such that the locking ring and cooperating lip of the container flex adequately to enable the locking ring to pass the lip whereupon the latch formation engages beneath the lip to positively lock the lid assembly in position in truly tamper evident manner.

Turning now to the second aspect of the invention, and with particular reference to FIGS. 5 to 9, an injection moulding process whereby the lid described above may be produced involves the use of a mould assembly, generally indicated by numeral (20). The mould assembly provides a mould cavity formed by a primary outer mould member (21) contoured to mould the outer top surface of the lid and that is movable axially between its operative and in operative positions.

A sliding core mould member (22) is contoured to mould the inside surface of the closure wall of the lid and is movable in the same axial direction.

A sliding sleeve (23) is slidable axially on the outside of the core mould member between an operative and in operative terminal position such that, in an operative position, an edge (24) that is configured to mould the outside surface of the squat cylindrical section (9), the inside surface of the locking ring (12), and undersurface of the rim (6) between the locking ring and squat cylindrical section, projects beyond the operative face of the core mould member as shown particularly in FIGS. 6 and 7.

A coaxial stripper ring (25) is also movable axially and configured to mould the outer surface of the part of the locking ring adjoining the rim. The stripper ring has a groove (26) (see FIG. 9) for moulding the retainer ridge (16) in the outer surface of the locking ring for ensuring de-moulding in the manner described below. Also, the stripper ring and sliding sleeve are configured with a multitude of small cavities to form the multitude of frangible connecting webs or bridges between the locking ring and rim.

Finally, a concentric collar (27) that is axially slidable on the outside of the sliding sleeve forms the balance of the mould surface for forming the outer surface of the locking ring of the lid. The cooperating surfaces of the stripper ring and collar are bevelled appropriately to enable a relatively small operative mould surface to be provided on the stripper ring whilst providing it with adequate strength.

The cycle of operation is illustrated progressively in FIGS. 6 through 9.

FIG. 6 illustrates the various mould components with the mould cavity closed and a lid (1) moulded therein.

FIG. 7 illustrates an initial stage of de-moulding in which the primary outer mould member is moved axially away from the remainder of the mould assembly, and from the moulded lid. At the same time, the collar has moved away from its operative position so that the locking ring is unsupported on this side in the region of the latch formation (13).

FIG. 8 illustrates a subsequent stage in which the core mould member and stripper ring have moved the lid off the end of the sliding sleeve, this being permitted by the freedom of the locking ring to flex outwards to disengage the latch formation from the groove in the sliding sleeve that formed it. The inter-engagement of the retainer ridge (16) and the groove (26) that formed it enable this to take place without fracturing of the multiple frangible connecting webs or bridges (14).

FIG. 9 illustrates the final stage of the de-moulding cycle in which the lid is disengaged from the stripper ring (25) by further movement of the core mould member (22) relative to it.

It will thus be understood that a relatively simple mould assembly may be used to produce lids as described above with all of the mould parts being movable in the same axial direction. This not only simplifies the mould in that no laterally moving mould parts are required, but also enables total symmetry to be achieved in the moulding of the frangible connecting webs or bridges with none being stronger than the other (other than the optional single retaining connecting element).

It will be understood that numerous variations may be made to the embodiment of each of the aspects of the invention described above without departing from the scope hereof, the embodiment described simply being illustrative of the invention.

The end closure wall 10 may, for example, include circumferential biasing formations in the area near its outer periphery. The biasing formations may take the form of a number of concertina formations which are arranged to force the operatively inner end of the cylindrical section (9) outwardly to improve the hermetic seal between the cylindrical section (9) and the open end of the container. 

1. A plastic lid for an open topped generally circular container of the type having an outwardly directed lip encircling the operatively upper open end of the container, the plastic lid comprising: a rim of generally annular shape and configured to cooperate with the outwardly directed lip of the container, in use; and a squat generally cylindrical section formed integral at its operatively outer end with the inner periphery of the rim and having formed integral therewith at its operatively inner end a closure wall such that the cylindrical section and closure wall together form a plug type of closure adapted to form a seal with the inner periphery of a the container, wherein at least one locking member is connected to the rim by way of one or more integral frangible connecting elements, and wherein the locking member is adapted to operatively cooperate with the lip of the container such that fracturing of one or more of said integral frangible connecting elements occurs during removal or attempted removal of the lid from the container.
 2. The plastic lid as claimed in claim 1 in which the locking ring carries on its outer surface, a retainer ridge or groove.
 3. The plastic lid as claimed in claim 11 in which a single retaining connecting element of more robust proportions attaches the locking ring to the rim of the lid to hold the ring captive unless the ring and lid are more firmly torn away from each other.
 4. The plastic lid as claimed in claim 1 in which the frangible connecting elements are located radially inwards of the outer periphery of the rim.
 5. The plastic lid as claimed in claim 1 in which the outer periphery of the rim has a downturned return flange.
 6. The plastic lid as claimed in claim 1 in combination with a thermoformed container that inherently has an inwardly directed endless bead formed immediately adjacent the open end and that is of smoothly rounded shape in cross-section.
 7. An injection moulding process for producing a plastic lid as claimed in claim 1 in which a mould cavity is formed by a primary outer mould member contoured to mould the outer top surface of the lid and movable coaxially between its operative and inoperative positions; a sliding core mould member contoured to mould the inside surface of the closure wall of the lid and movable in the same axial direction; a sliding sleeve slidable coaxially on the core mould member and having an edge configured to mould the outside surface of the squat cylindrical section, the inside surface of the locking ring, and undersurface of the rim between the locking ring and squat cylindrical section; a coaxial stripper ring also movable coaxially and configured to mould the outer surface of the part of the locking ring adjoining the rim and, together with the end region of the sliding sleeve, to form a multitude of frangible connecting webs or bridges between the locking ring and rim; and a concentric collar coaxially slidable on the sliding sleeve for forming the balance of the outer surface of the locking ring of the lid, wherein movement of said parts of the mould is arranged such that the end of the sliding sleeve is withdrawn from a moulded component prior to it being released by the stripper ring.
 8. An injection mould assembly for producing a plastic lid as claimed in claim 1 in which a mould cavity is formed by a primary outer mould member contoured to mould the outer top surface of the lid and movable coaxially between its operative and inoperative positions and a sliding core mould member contoured to mould the inside surface of the closure wall of the lid and movable in the same axial direction, wherein the mould assembly further comprises: a sliding sleeve slidable coaxially on the core mould member and having an edge configured to mould the outside surface of the squat cylindrical section, the inside surface of the locking ring, and undersurface of the rim between the locking ring and squat cylindrical section; a coaxial stripper ring also movable coaxially and configured to mould the outer surface of the part of the locking ring adjoining the rim and, together with the end region of the sliding sleeve, to form a multitude of frangible connecting webs or bridges between the locking ring and rim; and a concentric collar coaxially slidable on the sliding sleeve for forming the balance of the outer surface of the locking ring of the lid, wherein axial movement of said parts of the mould may be arranged such that the end of the sliding sleeve is withdrawn from a moulded component prior to it being released by the stripper ring.
 9. The injection mould assembly as claimed in claim 8 in which the stripper ring has a groove or ridge for moulding a retainer ridge or groove in the outer surface of the locking ring for ensuring removal of the sliding sleeve from a moulded lid prior to disengagement of the lid from the stripper ring.
 10. The injection mould assembly as claimed in claim 8 in which cooperating surfaces of the stripper ring and collar are bevelled to enable a relatively small operative mould surface to be provided on the stripper ring.
 11. The plastic lid as claimed in claim 1 in which the locking member is an endless locking ring having an endless latch formation for engaging the underside of the outwardly directed lip of the container.
 12. The plastic lid as claimed in claim 1 in which the said one or more frangible connecting elements are a multitude of frangible webs or bridges formed integral with the rim and locking ring and spaced apart equally and angularly relative to each other.
 13. A plastic lid for an open topped generally circular container of the type having an outwardly directed lip encircling the operatively upper open end of the container, the plastic lid comprising: a rim of generally annular shape and configured to cooperate with the outwardly directed lip of the container, in use; and a squat generally cylindrical section formed integral at its operatively outer end with the inner periphery of the rim and having formed integral therewith at its operatively inner end a closure wall such that the cylindrical section and closure wall together form a plug type of closure adapted to form a seal with the inner periphery of the container, wherein at least one locking member in the form of an endless locking ring having an endless latch formation for engaging the underside of the outwardly directed lip of the container is connected to the rim by way of one or more integral frangible connecting elements in the form of a multitude of frangible webs or bridges formed integral with the rim and locking ring and spaced apart equally and angularly relative to each other, and wherein the locking member is adapted to operatively cooperate with the lip of the container such that fracturing of one or more of said integral frangible connecting elements occurs during removal or attempted removal of the lid from the container.
 14. The plastic lid as claimed in claim 13 in which the locking ring carries on its outer surface, a retainer ridge or groove.
 15. The plastic lid as claimed in claim 13 in which a single retaining connecting element of more robust proportions attaches the locking ring to the rim of the lid to hold the ring captive unless the ring and lid are more firmly torn away from each other.
 16. The plastic lid as claimed in claim 13 in which the frangible connecting elements are located radially inwards of the outer periphery of the rim.
 17. The plastic lid as claimed in claim 13 in which the outer periphery of the rim has a downturned return flange.
 18. The plastic lid as claimed in claim 13 in combination with a thermoformed container that inherently has an inwardly directed endless bead formed immediately adjacent the open end and that is of smoothly rounded shape in cross-section. 